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This module offers support for computing the least solution of a set of monotone equations, as described in the unpublished paper Lazy Least Fixed Points in ML. In other words, it allows defining a recursive function of type variable -> property, where cyclic dependencies between variables are allowed, and properties must be equipped with a partial order that has finite ascending chains. This function performs the fixed point computation on demand, in an incremental manner, and is memoizing. This is typically used to perform a backward data flow analysis over a directed graph. This algorithm performs dynamic dependency discovery, so there is no need for the user to explicitly describe dependencies between variables.
moduleMake (M : sig ... end) (P : sig ... end) : sig ... end
Make constructs a solver for a type key that is equipped with an implementation of imperative maps and a type property that is equipped with bottom, equal, and is_maximal functions.
moduleForOrderedType (T : sig ... end) (P : sig ... end) : sig ... end
ForOrderedType is a special case of Make where it suffices to pass an ordered type T as an argument. A reference to a persistent map is used to hold the memoization table.
moduleForHashedType (T : sig ... end) (P : sig ... end) : sig ... end
ForHashedType is a special case of Make where it suffices to pass a hashed type T as an argument. A hash table is used to hold the memoization table.
moduleForType (T : sig ... end) (P : sig ... end) : sig ... end
ForType is a special case of Make where it suffices to pass an arbitrary type T as an argument. A hash table is used to hold the memoization table. OCaml's built-in generic equality and hash functions are used.